RU2011139714A

RU2011139714A - INTELLIGENT ROUTING

Info

Publication number: RU2011139714A
Application number: RU2011139714/08A
Authority: RU
Inventors: Боаз ЛЕВ
Original assignee: Майкрософт Корпорейшн
Priority date: 2009-03-30
Filing date: 2010-03-26
Publication date: 2013-04-20
Also published as: SG173821A1; CN102369691A; EP2415213B1; WO2010117689A2; BRPI1008999A2; CN102369691B; US8166200B2; KR101671549B1; CA2753878A1; CA2753878C; RU2520360C2; US20100250776A1; EP2415213A4; EP2415213A2; JP2012522318A; KR20120004433A; WO2010117689A3

Abstract

1. Компьютерно-реализуемый способ маршрутизации клиентского запроса (202) к модулю (110) сервера, содержащий компьютерно-реализуемые действия, согласно которым:принимают клиентский запрос (202) от клиентского компьютера (104) в модуле маршрутизатора (108) ив ответ на прием клиентского запроса (202) опрашивают регулятор (112) нагрузки для получения целевого адреса (206) модуля (110) сервера для выполнения клиентского запроса (202), сравнивают целевой сетевой адрес (206) с одним или несколькими сетевыми адресами в списке сетевых адресов (208) для определения того, исполняются ли модуль (108) маршрутизатора и модуль (110) сервера, который должен выполнить клиентский запрос (202), на одном и том же физическом компьютере, и в ответ на определение того, что модуль (108) маршрутизатора и модуль (110) сервера исполняются на одном и том же физическом компьютере, переадресовывают клиентский запрос (202) от модуля (108) маршрутизатора к модулю (110) сервера посредством оптимизированной транспортировки (210), в которой используется бинарное кодирование.2. Компьютерно-реализуемый способ по п.1, в котором оптимизированная транспортировка представляет собой оптимизированную транспортировку только в пределах одного компьютера.3. Компьютерно-реализуемый способ по п.2, в котором в оптимизированной транспортировке только в пределах одного компьютера используется бинарное кодирование.4. Компьютерно-реализуемый способ по п.3, в котором оптимизированная транспортировка только в пределах одного компьютера содержит привязку именованного канала.5. Машиночитаемый носитель, на котором хранятся машиноисполняемые команды, которые при их выполнении компьютером вызывают осущ�1. A computer-implemented method for routing a client request (202) to a server module (110), comprising computer-implemented actions, according to which: receive a client request (202) from the client computer (104) in the router module (108) and the response to the reception the client request (202) polls the load controller (112) to obtain the target address (206) of the server module (110) to execute the client request (202), compare the target network address (206) with one or more network addresses in the list of network addresses (208) ) to determine whether the module (108) of the router and the module (110) of the server that is to fulfill the client request (202) are updated on the same physical computer, and in response to the determination that the module (108) of the router and the module (110) of the server are executed on the same physical computer, redirect the client request (202) from the router module (108) to the server module (110) by means of optimized transportation (210), which uses binary coding. 2. The computer-implemented method of claim 1, wherein the optimized transportation is optimized transportation only within the same computer. The computer-implemented method according to claim 2, in which in the optimized transportation only within the same computer uses binary coding. The computer-implemented method according to claim 3, in which the optimized transportation only within the same computer contains a named pipe binding. A machine-readable medium on which computer-executable instructions are stored that, when executed by a computer, cause

Claims

1. A computer-implemented method for routing a client request (202) to a server module (110), comprising computer-implemented actions, according to which:

receive a client request (202) from the client computer (104) in the router module (108) and

In response to receiving a client request (202), the load regulator (112) is polled to obtain the target address (206) of the server module (110) to execute the client request (202), the target network address (206) is compared with one or more network addresses in the list network addresses (208) to determine whether the module (108) of the router and the module (110) of the server that is to fulfill the client request (202) are running on the same physical computer, and in response to determining that the module ( 108) the router and the module (110) of the server are executed on one ohm and the same physical computer to redirect the client request (202) from the module (108) to the router module (110) by means of an optimized transport server (210) in which a binary coding is used.

2. The computer-implemented method according to claim 1, in which the optimized transportation is an optimized transportation only within the same computer.

3. The computer-implemented method according to claim 2, in which in the optimized transportation only within the same computer uses binary coding.

4. The computer-implemented method according to claim 3, in which the optimized transportation only within the same computer contains a named pipe binding.

5. A machine-readable medium on which computer-executable instructions are stored which, when executed by a computer, cause the computer to implement the method according to claim 1.

6. A system for routing a client request (202) to a server module (110), comprising:

a server module (110) configured to receive and respond to a client request (202);

a router module (108) configured to receive a client request (202) and, in response to receiving a client request (202), obtain the network address (206) of the server module (110), determine whether the server module (110) is running on the same computer that the router module (108), and forward the request (202) to the server module (110) using optimized transport (210) in response to the determination that the server module (110) is running on the same computer.

7. The system according to claim 6, further comprising a load controller, and upon receipt of the network address of the server module, the load controller is polled to obtain the network address of the server module.

8. The system of claim 7, wherein the router module is further configured to use standard transport in response to determining that the server module is not running on the same computer.

9. The system of claim 8, in which when determining whether the server module is running on the same computer, the network address received from the load controller is compared with one or more network addresses in the list of network addresses to which the computer executing the module responds router to determine if the server module is running on the same computer.

10. The system of claim 9, wherein the optimized transportation is transportation according to a transmission control protocol (TCP).

11. The system according to claim 9, in which the optimized transportation is an optimized transportation only within the same computer.

12. The system according to claim 11, in which the optimized transportation only within one computer uses binary encoding.

13. The system according to claim 11, in which the optimized transportation only within one computer contains a named pipe binding.